The invention relates to a magnetic safety closure for a movable protection device which can be moved with respect to a fixed part, for instance a door or flap of an enclosure of a prohibited area wherein a machinery as a robot or the like is arranged, said machinery when operating being able to cause a danger for working people in the environment of the machinery.
In the case of access protection devices for a physical area, which can be accessed and closed, of a machinery or machine installation (understood here to mean, for example, machines or components for production, treatment or processing purposes as well as installations comprising said machines and components and possibly also chemical installations or the like), protection devices in the form of doors or flaps, whose closed position is detected by means of at least one sensor, are provided for the purpose of accessibility. When protection devices such as doors or flaps made of plastic, in particular made of transparent plastic for visibility reasons, are used, they can be easily warped. Accordingly, there is also a risk of such protection devices becoming loose and the associated sensors, in some circumstances, not responding or responding too early.
German Utility Model DE 91 00 626 U1 describes an electrically releasable unlocking apparatus in which a lever biased against a spring is held locked by a permanent magnet. The force of the permanent magnet can be cancelled out by an electrically activatable coil such that the biase of the spring comes into effect. The spring causes a cylinder to extend and causes the lever to move with it in the same direction about its point of rotation.
An object of the invention is to provide a magnetic safety closure for a movable protection device, in which the operability of the safety closure is not adversely affected by warping of the protection device.
According to magnetic safety closure for the protection device of the invention, a sensor which is responsible for detecting the closed and opened state of the protection device, in particular a safety sensor, is positioned in the immediate vicinity of a locking device for the protection device, that is to say is integrated in the locking device. As a result, distortion in the protection devices is not disadvantageously evident.
Further objects, advantages and embodiments of the invention can be found in the description below.
The invention will now be explained in greater detail in the following with reference to exemplary embodiments illustrated in the attached drawings.
In the embodiment illustrated in
A housing 3 which is fitted with a handle 4 for opening and closing the protection device 2, which handle can be pivoted with respect to the housing 3 about an axis 5, is attached to the protection device 2.
Also, a sensor housing 6 which accommodates a sensor 7, which is used to determine whether the protection device 2 is closed or open, is attached to the frame 1. The sensor 7 is correspondingly operated by means of an initiating device 8 which is accommodated by the housing 3 attached to the protection device 2. The initiating device 8 is opposite the sensor 7 when the protection device 2 is closed.
The sensor 7 may be an electronic sensor which interacts with a TAG as the initiating device 8, however it may also comprise one or more reed switches which can be initiated by magnets as the initiating device 8. Alternatively, the sensor may comprise corresponding contactless proximity switches, light barriers or the like, or else electromechanical sensors. Therefore, safety sensors as described in German Patent DE 100 43 237 C1 or German Patent Application DE 103 07 044 A1 (which are hereby incorporated by reference) may be used, for example.
The housing 3 also has a magnet arrangement 9 having at least one holding magnet 10, and the sensor housing 6 is correspondingly provided with opposite pole plates 11 for the holding magnets 10. When the protection device is closed, the holding magnet 10 and the associated pole plate 11 are opposite each another such that the intended holding force for locking the protection device 2 is supplied. The holding magnet 10 and pole plate 11 can of course also interchangeably be accommodated in the sensor housing 6 and housing 3 respectively. A magnet could also be used in place of a pole plate 11. The handle 4 is a two-armed lever mounted on the housing 3, one arm 12 of the lever facing the sensor housing 6 and with its free end disconnecting the holding magnets 10 of the magnet arrangement 9 from the associated pole plates 11 when said handle is pivoted out in order to open the protection device 2. For this purpose, the handle 4 can be grasped by its other arm 13 and pivoted outwards with respect to the protection device 2, cf.
The force required for opening can be chosen to be significantly less than the locking force of the magnet device 9 by appropriate choice of the ratio of the lengths of the arms 12, 13 of the handle, which is in the form of a two-armed lever.
A stop 14 is expediently arranged adjacent to the magnet arrangement 9, the at least one pole plate 11 at the same time being movable in the direction of the magnet arrangement 9 corresponding to predetermined play. The latter leads to secure contact between the holding magnet 10 and pole plate 11 when the protection device 2 is closed, while the stop 14 prevents the closing energy and the effect of any accompanying impact being transferred to the magnet device 9 when the protection device is closed. The pole plates 11 which are movable in this way also allow the protection device 2 to be seated with a certain inclination.
It is also expedient to provide corresponding play in order to compensate for incorrect alignment of the protection device 2. This can be done—as illustrated by way of example in FIG. 4—by arranging a ferromagnetic plate 10a, which has larger dimensions than the holding magnet 10, on both sides of each holding magnet 10 with play with respect to the axis 5 passing through, the plates 10a being held on the respective holding magnet 10 as a result of the magnetic force and being moved corresponding to any misalignment when contact is made with the respective pole plate 11. However, the pole plates 11 can also be held by the sensor housing 6 with lateral play. In order to be able to compensate for a limited change in position of the protection device 2, the pole plates 11 can also be larger than the associated holding magnets 10.
In the embodiment illustrated in
According to
The embodiment illustrated in
In the case of a protection device 2 in the form of a sliding door, it may also be expedient if the lever can be pivoted in the direction of the door in order to open it. For this purpose, the shaft 5 in
In the embodiment illustrated in
In the embodiment illustrated in
While the invention has been shown and described with reference to preferred embodiments, it should be apparent to one of ordinary skill in the art that many changes and modifications may be made without departing from the spirit and scope of the invention as defined in the claims.
Number | Date | Country | Kind |
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103 48 527 | Oct 2003 | DE | national |
Number | Name | Date | Kind |
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2673111 | Teetor | Mar 1954 | A |
3201960 | Berkowitz | Aug 1965 | A |
4904005 | Frolov | Feb 1990 | A |
6409083 | Link | Jun 2002 | B1 |
6758504 | Mandall | Jul 2004 | B2 |
Number | Date | Country |
---|---|---|
9100626 | May 1991 | DE |
10150463 | Apr 2003 | DE |
926509 | Jun 1999 | EP |
WO 02-100235 | Dec 2002 | WO |
Number | Date | Country | |
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20070096856 A1 | May 2007 | US |
Number | Date | Country | |
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Parent | 10964202 | Oct 2004 | US |
Child | 11555627 | US |